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Palladium and Gold-Catalyzed transannular [4+3] cycloaddition reactions: Application to the ABCD carbon framework of Cortistatin A. A short synthesis of S-(+)-Siphonodiol. New chiral Au(I) N-heterocyclic carbene complexes and their use in intramolecular cCraft, Derek T. 26 April 2010 (has links)
No description available.
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Development of methodologies employing rhodium catalysis and studies toward the total synthesis of cortistatin ASmith, Anna Jane, Ph. D. 23 August 2010 (has links)
[Rh(CO]2Cl]2 has been shown to catalyze sequential, mechanistically- distinct transformations in one pot. Tandem allylic alkylation/cycloisomerization sequences have been developed to access valuable, complex structures from relatively simple substrates.
A methodology for the enantioselective conjugate addition of 2-heteroaryl nucleophiles to a variety of Michael acceptors has been developed. This method was used successfully in an ongoing approach to the synthesis of cortistatin A. 10 linear steps have been completed towards the synthesis of cortistatin A, including a highly regioselective propargylation to install a quaternary carbon and a diastereoselective intramolecular Diels-Alder reaction. / text
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Studies directed toward the total synthesis of cortistatin ALittich, Ryan Andrew 07 December 2010 (has links)
Studies directed toward the total synthesis of the cytotoxic steroidal alkaloid
cortistatin A were carried out. In a model system, it was determined that a sequence of
reactions involving a lithiocyclopropene addition-intramolecular [4 + 2] cycloaddition
cascade and subsequent cyclopropylcarbinyl rearrangement allowed for ready access to
the BCD rings of the core steroid. Implementation of this methodology en route to the
fully functionalized natural product proved an effective means for the elaboration of the
A ring carbocyclic framework. / text
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Synthesis of Cortistatin Alkaloids and a Versatile Synthesis of IsoquinolinesSi, Chong 10 August 2012 (has links)
The cortistatins are a recently identified class of marine natural products that were found to exhibit potent and selective inhibition of human umbilical vein endothelial cells (HUVECs), making them promising leads for the development of anti-angiogenic drugs. In our synthesis, we envisioned that natural cortistatins and unnatural analogs could be prepared by late-stage introduction of isoquinolines to 17-keto precursors, and that these differentially substituted precursors could all be derived from a common key intermediate 112. We developed a robust synthetic route to prepare gram quantities of key intermediate 112 starting from readily available benzylzinc reagent 116 and enol triflate 117. Key intermediate 112 was next converted to cortistatin precursors 108, 109, 110, and 111 in three to eight steps, representing each of the four natural cortistatin ABC-ring substitution patterns. Subsequently, a generally applicable method was developed to introduce the isoquinoline moiety. After complexation to N,N,N',N'-tetramethylethylenediamine (TMEDA), 7-lithio-isoquinoline added to 17-keto precursors to provide the corresponding 1,2-addition products; the resulting tertiary alcohols underwent radical deoxygenation via their trifluoroacetates to afford the desired (17S)-products. This organolithium-addition-deoxygenation sequence provided cortistatins A (1, on a 20-mg scale), J (9), K (10), and L (11) in good overall yields. We also synthesized cortistatin primary amines (176 and 186) and used them to prepare several cortistatin based affinity reagents. By employing these reagents in pull-down experiments, we identified a 55-kD membrane kinase as a putative protein target of cortistatins. We wanted to prepare cortistatin analogs with isoquinoline modifications due to the importance of this ring for the biological activity of cortistatins. This led us to develop a novel and versatile synthesis of substituted isoquinolines. In our method, lithiated o-tolualdehyde tert-butylimines were condensed with different nitriles to generate eneamido anion intermediates, which were trapped in situ with various electrophiles at the C4-position, affording a wide range of substituted isoquinolines. Further diversification was achieved by modification of the work-up conditions and by subsequent transformations. / Chemistry and Chemical Biology
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Palladium and gold-catalyzed transannular [4+3] cycloaddition reactions application to the ABCD carbon framework of Cortistatin A : a short synthesis of S-(+)-Siphonodiol : new chiral Au(I) N-heterocyclic carbene complexes and their use in intramolecular C /Craft, Derek T. January 2010 (has links)
Title from second page of PDF document. Includes bibliographical references.
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An Investigation of Gold(I) Catalyzed Cycloaddition ReactionsConyers, Ryan C. 19 April 2013 (has links)
No description available.
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